The forecast for hurricane Irma from September 5th, 8am. The red arrow indicates my location.

It seems that Irma will ruin our weekend even if we do not get hit directly. Obviously I am checking the weather forecast on a regular basis, which got me wondering how it is actually done.
I assume the models need wind speed, pressure, temperature and humidity at many grid points as initial data and I wonder how this is derived from satellite images or other sources for different heights. In particular, how do they determine pressure and humidity with the necessary space and time resolution?

I have another question about this wunderground page: What is the difference between computer models and ensemble models? My assumption is that (some) computer models use brute force numerical integration of the Navier Stokes equation(s), but I guess there must be some heuristic models as well, e.g. about rainfall etc. Are the ensemble models just different runs of the computer models with different settings or what? (*)

I am counting on CIP and friends to know this stuff or at least have some good links 8-)
And please let me know before Saturday, because afterwards power and/or internet might be out here ...

I think my "blogicidal tendencies", the weird habit of ending and restarting this blog, might one day require deeper analysis, perhaps using Freud's concept of Todestrieb, usually translated as "death wish". Or one could understand it as an example of the "halting problem" - not even the author can determine with certainty if and when this blog will halt ...
But this blog post is really about something else - the possible existence of closed timelike curves (CTC).

Hawking famously proved that CTCs within classical general relativity require either ...
a time machine of infinite size (example: Tipler cylinder) or
exotic matter, violating the weak energy condition (example: wormholes) or
a (naked) singularity (example: Bonnor metric) or
they are hidden behind a horizon (example: Kerr metric). (*)

As far as I know, cosmic censorship prohibiting naked singularities is still an open question (with several examples and counterexamples) and the question if quantum field theories obey the weak energy condition is not settled either. Furthermore, the existence of CTCs would still be unsettling even if "hidden" behind horizons; a brave observer, willing to plunge e.g. into a large rotating blackhole, perhaps motivated by a "death wish", would be able to experience them.
Therefore an important question is how CTCs would change computability theory and fortunately Scott has already some answers. Spoiler alert: He talks about the "halting problem".